Metabo HC 260 C Manual Original página 17
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Ver también para HC 260 C:
- Manual original (193 páginas) ,
- Manual original (192 páginas)
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7 Cutterblock
8 Clamping lever (angle)
9 Clamping lever (width)
10 Fence bracket (to attach the fence)
11 Infeed table
12 Height adjustment (infeed table)
13 Chip extraction guard (with port for extraction)
14 Push stick
15 Thicknesser bed
16 Transport handles
17 Legs
18 Scale (surface planing)
19 Transport wheels
20 On/Off switch
21 Height adjustment for the thicknesser bed
(hand crank)
22 Cutterblock guard extrusion
23 Clamping screw
(of the cutterblock guard extrusion)
24 Clamping lever
(of the arm of the cutterblock guard extrusion)
25 Height adjustment screw
(of the cutterblock guard extrusion)
26 Screw for storing the push stick when
not in use
Standard accessories:
- open-ended spanner
- Allen key
- planer knife setting gauge
7. Operating Controls
On/off switch
(20)
• Switching on = press green switch.
• Switching off = press red switch.
Undervoltage relay
In the event of a voltage failure an undervoltage
relay will trip. This prevents the machine from
starting up when the power is restored. To restart,
the green switch button must be pressed.
Overload protection
The planer/thicknesser has an integrated overload
protection. It shuts the machine down if the motor
heats up too much. To restart the machine:
1. let motor cool down (approx. 10 minutes);
2. press green switch button .
Infeed table height setting (when oper-
ated in surface planer mode)
With the height setting (21) for the thicknesser bed
the planing thickness (= thickness of the work
piece after planing) is set when the machine is
used for thickness planing.
• One full turn of the crank changes the height
position of the thicknesser bed by 3 mm.
• Per pass a maximum of 3 mm material can be
removed.
• Work pieces of max. 160 mm thickness can be
thickness planed.
Infeed table height setting (when oper-
ated in surface planer mode)
With the height setting (12) for the infeed table the
depth of cut is set when the machine is used for
surface planing.
• Graduation of the scale (18) in 0.5 mm steps.
• Per pass a maximum of 3 mm material can be
removed.
Fence profile
The fence profile (6) provides lateral support for
the work piece when surface planing.
• After loosing the clamping lever (9) the fence
profile can be adjusted to the width of the work
piece.
• Loosen the clamping lever (8) to tilt the fence
extrusion to a maximum of 45°.
8. Assembly
Danger!
Modification of the machine or use of parts not
tested and approved by the manufacturer can
cause unforeseen damage.
• Assemble machine exactly as per these
instructions.
• Use only the parts supplied with the
machine as standard equipment.
• Do not change any parts.
Required tools
– Spanner 10 mm
– Spanner 13 mm
– Philips screwdriver
– Allen key (different sizes)
– Hammer
8.1 Removal of shipping protection
• Remove protective film and soak up excess oil
using cloths.
8.2 Leg installation
• Attach the transport handles (16) on the side of
the infeed table (11). Fasten each leg with 4
screws and washer.
1. With the help of a second person, carefully
place the machine on a suitable surface on one
side of the machine.
2. See fig. A:
On the side of the infeed table (11):
Push two legs (17) into the corners of the
machine from the inside. Hold the two transport
handles (16) from the outside to the machine
and fix with screws:
- Put the washers on the (longer) hexagon head
screws.
- Fit hexagon head screws into holes from the
outside;
- Screw on the hexagon nuts from the inside and
tighten them.
3. On the side of the infeed table (1):
Push two legs (17) into the corners of the
machine from the inside:
- Put the washers on the hexagon head screws.
- Fit hexagon head screws into holes from the
outside;
- Screw on the hexagon nuts from the inside and
tighten them.
4. See fig. B:
On the side of the outfeed table (1) mount
the transport wheels (19) on the legs with
hexagon head screws, washers and hexagonal
nuts.
8.3 Mounting the thicknesser bed
height adjuster
See fig. C.
• Fit the hand crank (21) onto the port so that the
hexagon socket screw on the side faces the flat-
tened side for the nozzle.
Tighten the hexagon socket screw with a
hexagon wrench to secure the hand crank (21).
8.4 Install on/off switch
See fig. C.
• Fix on/off switch (20) with the 4 long screws.
8.5 Mounting the infeed table
See fig. D.
1. Remove the 2 fastening screws (a) of the left
bar (c) and remove the bar (c).
2. Also remove the right bar.
3. Place the infeed table (11) onto the machine
and hold it firmly so that it cannot fall down.
4. Slide the left bar (c) in sideways and align it so
that the 2 metal pins (b) in the bar match the
holes in the unit.
Make sure that the reading mark (d) on the
infeed table is in the area of the scale (18)
(change the position of the infeed table if
necessary).
Use a hammer to drive the 2 metal pins (b) flush
into the holes in the device.
Screw the bar back in place with the 2 fixing
screws (a) (and washers).
5. Also attach the right bar.
See fig. E.
6. Prepare the height adjustment (12):
Slide a washer (a) onto the threaded rod.
7. Insert the threaded rod of the height adjustment
(12) into the hole at the front of the infeed table
(11).
8. Push the spring washer (b) and then the locking
ring (c).
9. Screw the threaded rod into the threaded hole
(d) of the crossbar (under the infeed table (11)).
10.There is a conical recess in the threaded rod.
Position the locking ring (c) in such a way that
the screw in the locking ring is above this
recess.
Secure the locking ring by tightening the screw
with a hexagonal wrench.
8.6 Chip chute installation
See fig. F.
• Slide the chip chute (3) under the fastening
profile (a) and screw tight with the 4 self-tapping
screws (b).
8.7 Attach the outfeed table and mount
cutterblock guard extrusion.
See fig. G.
1. Attach the outfeed cable (1) at the device:
See chapter 9.1, step 1 to 6.
2. Hold the bracket (a) of the cutterblock guard
extrusion against the side of the outfeed table
(1) and fix with 2 screws. To avoid jamming,
tighten the 2 screws alternately. (Note: To
access the screws, the clamping lever (24)
must be pressed downwards.)
3. Insert the guard extrusion (22) into the bracket
to that the entire cutterblock is covered and
secure it with the clamping screw (23).
8.8 Fence profile installation
Note: The clamping lever can be repositions on the
hexagon underneath by pulling it outwards a little
in an axial direction.
See fig. H.
1. Screw the fence bracket (10) with 2 screws (a)
to the infeed table (11).
2. Place the fence bracket (b) on the stop bracket
(10), whilst inserting the screw of the clamping
lever (9) into the groove of the fence bracket
(10).
3. Tighten the clamping lever (9), thereby
securing it to the device.
4. Move the other clamping lever (8) upwards and
clamp it so that there is enough space to insert
the fence profile (6).
5. Hold the fence profile (6) in such a way that the
recess points downwards and towards the
outfeed table (1).
6. Push the fence profile (6) with its groove onto
the 2 carriage bolts (c) until the stop. Tighten
the nuts of the carriage bolts (c), thereby
securing the fence profile.
7. Put on the plastic cap (d) supplied at the end of
the fence profile.
8.9 Connection to Power Mains
Danger!
High voltage
Operate in dry environment only.
Operate machine only on a power source
matching the following requirements (see
also "Technical Specifications"):
– fuse protection by a residual current oper-
ated device (RCD) of 30 mA sensitivity;
– outlets properly installed, earthed and
tested;
– 400 V: three-phase outlets with neutral wire
installed;
– When a dust collector is used it must also
be properly earthed.
Make sure the power supply cable is out of the
way, so that it does not interfere with the work
and does not pose a tripping hazard or will get
damaged.
Protect the power supply cable from heat,
aggressive liquids and sharp edges.
Use only extension cables with a sufficient
lead cross section.
Do not pull on the power supply cable to
unplug.
Check direction of rotation! (machines
with 3-phase motor only):
Depending on the phase sequence the cutter-
block may turn in the wrong direction. This
can cause damage to the machine and work
piece. It is therefore necessary to check the
direction of rotation after initial commis-
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